The book begins by introducing tendril anatomy and function, then explores the cellular and molecular events powering movement, and finally transitions to the biophysical aspects of climbing, including attachment forces. Using microscopic imaging, biomechanical measurements, and original research data, the book provides a comprehensive, multi-scale perspective. This integration of molecular biology, plant biomechanics, and computational modeling is a unique aspect, making it valuable for those interested in plant biology, bio-inspired design, and adaptive materials.
Pea Plant Climbing not only provides a detailed account of climbing mechanisms, but also connects to materials science, robotics, and agriculture. For example, understanding tendril mechanics can inspire the design of soft robots. The book progresses logically, building from basic concepts to advanced analyses, making it accessible to advanced students and researchers alike.
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